\chapter{Introduction}
\label{chap:oiiointro}



Welcome to \product!

\bigskip

\section{Overview}

\product provides simple but powerful \ImageInput and \ImageOutput APIs
that abstract the reading and writing of 2D image file formats.  They
don't support every possible way of encoding images in memory, but for a
reasonable and common set of desired functionality, they provide an
exceptionally easy way for an application using the APIs support a wide
--- and extensible --- selection of image formats without knowing the
details of any of these formats.

Concrete instances of these APIs, each of which implements the ability
to read and/or write a different image file format, are stored as
plugins (i.e., dynamic libraries, DLL's, or DSO's) that are loaded at
runtime.  The \product distribution contains such plugins for several
popular formats.  Any user may create conforming plugins that implement
reading and writing capabilities for other image formats, and any
application that uses \product would be able to use those plugins.

The library also implements the helper class \ImageBuf, which is a handy way
to store and manipulate images in memory.  \ImageBuf itself uses \ImageInput
and \ImageOutput for its file I/O, and therefore is also agnostic as to
image file formats. A variety of functions in the \ImageBufAlgo namespace
are available to perform common image processing operations on \ImageBuf's.

The \ImageCache class transparently manages a cache so that it can
access truly vast amounts of image data (thousands of image files totaling
hundreds of GB to several TBs) very efficiently using only a tiny amount
(tens of megabytes to a few GB at most) of runtime memory.  Additionally, a
\TextureSystem class provides filtered MIP-map texture lookups, atop
the nice caching behavior of \ImageCache.

Finally, the \product distribution contains several utility programs that
operate on images, each of which is built atop this functionality, and
therefore may read or write any image file type for which an appropriate
plugin is found at runtime.  Paramount among these utilities {\cf oiiotool},
a command-line image processing engine, and {\fn iv}, an image viewing
application.  Additionally, there are programs for converting images among
different formats, comparing image data between two images, and examining
image metadata.

All of this is released as ``open source'' software using the very
permissive ``New BSD'' license.  So you should feel free to use any or all of
\product in your own software, whether it is private or public, open
source or proprietary, free or commercial.  You may also modify it on
your own.  You are encouraged to contribute to the continued
development of \product and to share any improvements that you make on
your own, though you are by no means required to do so.

\section{Simplifying Assumptions}

\product is not the only image library in the world.  Certainly there
are many fine libraries that implement a single image format (including
the excellent {\fn libtiff}, {\fn libjpeg}, and {\fn OpenEXR} that
\product itself relies on).  Many libraries attempt to present a uniform
API for reading and writing multiple image file formats.  Most of these
support a fixed set of image formats, though a few of these
also attempt to provide an extensible set by using the plugin approach.

But in our experience, these libraries are all flawed in one or more
ways: (1) They either support only a few formats, or many formats but
with the majority of them somehow incomplete or incorrect.  (2) Their
APIs are not sufficiently expressive as to handle all the image features
we need (such as tiled images, which is critical for our texture
library).  (3) Their APIs are \emph{too complete}, trying to handle
every possible permutation of image format features, and as a result
are horribly complicated.

The third sin is the most severe, and is almost always the main problem
at the end of the day.  Even among the many open source image libraries
that rely on extensible plugins, we have not found one that is both
sufficiently flexible and has APIs anywhere near as simple to understand
and use as those of \product.

Good design is usually a matter of deciding what \emph{not} to do, and
\product is no exception.  We achieve power and elegance only by
making simplifying assumptions.  Among them:

\begin{itemize}
  \item \product only deals with ordinary 2D images, and to a limited
    extent 3D volumes, and image files that contain multiple (but
    finite) independent images within them.  \product's support of ``movie''
    files is limited to viewing them as a sequence of separate frames within
    the file, but not as movies per se (for example, no support for dealing
    with audio or synchronization).

  \item Pixel data are presented as 8- 16- or 32-bit int (signed or unsigned), 16-
    32- or 64-bit float.  NOTHING ELSE.  No $<8$ bit images, or pixel value
    boundaries that aren't byte boundaries.  Files with $<8$ bits will
    appear to the client application as 8-bit unsigned grayscale images.

  \item Only fully elaborated, non-compressed data are accepted
    and returned by the API.  Compression or special encodings are
    handled entirely within an \product plugin.

  \item Color space is by default converted to grayscale or RGB. Non-spectral
    color models, such as
    XYZ, CMYK, or YUV, are converted to RGB upon reading. (There is a
    way to override this and ask for raw pixel values.)

  \item All color channels can be treated (by apps or readers/writers)
    as having the same data format (though there is a way to deal with
    per-channel formats for apps and readers/writers that truly need
    it).

  \item All image channels in a subimage are sampled at the same
    resolution.  For file formats that allow some channels to be
    subsampled, they will be automatically up-sampled to the highest
    resolution channel in the subimage.

  \item Color information is always in the order R, G, B, and the alpha
    channel, if any, always follows RGB, and Z channel (if any) always
    follows alpha.  So if a file actually stores ABGR, the plugin is
    expected to rearrange it as RGBA.

\end{itemize}

It's important to remember that these restrictions apply to data passed
through the APIs, not to the files themselves.  It's perfectly fine to
have an \product plugin that supports YUV data, or 4 bits per channel, or
any other exotic feature.  You could even write a movie-reading
\ImageInput (despite \product's claims of not supporting movies) and
make it look to the client like it's just a series of images within the
file.  It's just that all the nonconforming details are handled entirely
within the \product plugin and are not exposed through the main \product
APIs.


\section{Historical Origins}

\product is the evolution of concepts and tools I've been working on 
for two decades.

In the 1980's, every program I wrote that output images would have a
simple, custom format and viewer.  I soon graduated to using a standard
image file format (TIFF) with my own library implementation.  Then I
switched to Sam Leffler's stable and complete {\fn libtiff}.

In the mid-to-late-1990's, I worked at Pixar as one of the main
implementors of PhotoRealistic RenderMan, which had \emph{display
  drivers} that consisted of an API for opening files and outputting
pixels, and a set of DSO/DLL plugins that each implement image output
for each of a dozen or so different file format.  The plugins all
responded to the same API, so the renderer itself did not need to know
how to the details of the image file formats, and users could (in
theory, but rarely in practice) extend the set of output image formats
the renderer could use by writing their own plugins.

This was the seed of a good idea, but PRMan's display driver plugin API
was abstruse and hard to use.  So when I started Exluna in 2000, Matt
Pharr, Craig Kolb, and I designed a new API for image output for our own
renderer, Entropy.  This API, called ``ExDisplay,'' was C++, and much
simpler, clearer, and easier to use than PRMan's display drivers.

NVIDIA's Gelato (circa 2002), whose early work was done by myself, Dan
Wexler, Jonathan Rice, and Eric Enderton, had an API
called ``ImageIO.''  ImageIO was 
\emph{much} more powerful and descriptive than ExDisplay, and had an
API for \emph{reading} as well as writing images.  Gelato was not only
``format agnostic'' for its image output, but also for its
image input (textures, image viewer, and other image utilities).
We released the API specification and headers (though not the
library implementation) using the BSD open source license, firmly
repudiating any notion that the API should be specific to NVIDIA or
Gelato.

For Gelato 3.0 (circa 2007), we refined ImageIO again (by this time,
Philip Nemec was also a major influence, in addition to Dan, Eric, and
myself\footnote{Gelato as a whole had many other contributors; those
  I've named here are the ones I recall contributing to the design or
  implementation of the ImageIO APIs}).  This revision was not a major
overhaul but more of a fine tuning.  Our ideas were clearly approaching
stability.  But, alas, the Gelato project was canceled before Gelato 3.0
was released, and despite our prodding, NVIDIA executives would not open
source the full ImageIO code and related tools.

After I left NVIDIA, I was determined to recreate this work once
again -- and ONLY once more -- and release it as open source from the
start.  Thus, \product was born.  I started with the existing Gelato
ImageIO specification and headers (which were BSD licensed all along),
and made further refinements since I had to rewrite the entire
implementation from scratch anyway.  I think the additional changes are
all improvements.

Over the years and with the help of dozens of open source contributors,
\product has expanded beyond the original simple image format input/output
to encompass a wide range of image-related functionality. It has grown into
a foundational technology in many products and tools, particularly for the
production of animation and visual effects for motion pictures (but also
many other uses and fields). This is the software you have in your hands
today.


\section{Acknowledgments}

\begin{comment}
The direct precursor to \product was Gelato's ImageIO, which was
co-designed and implemented by Larry Gritz, Dan Wexler, Jonathan Rice, Eric
Enderton, and Philip Nemec.

Big thanks to our bosses at NVIDIA for allowing us to share the API spec
and headers under the BSD license.  And thanks to their inability to
open source their own implementation in a timely manner, I was forced to
create this clearly superior descendant.
\end{comment}

\product incorporates, depends upon, or dynamically links against several
other open source packages, detailed below. These other packages are all
distributed under licenses that allow them to be used by \product. Where not
specifically noted, they are all using the same BSD license that \product
uses. Any omissions or inaccuracies in this list are inadvertent and will be
fixed if pointed out. The full original licenses can be found in the
relevant parts of the source code.

\smallskip
\noindent \product incorporates, distributes, or contains derived works of:

\begin{itemize}
\item The SHA-1 implemenation we use is public domain by
Dominik Reichl \\ \url{http://www.dominik-reichl.de/}
\item Squish \copyright\ 2006 Simon Brown, MIT license.
\url{http://sjbrown.co.uk/?code=squish}
\item PugiXML \copyright\ 2006-2009 by Arseny Kapoulkine (based on work
\copyright\ 2003 Kristen Wegner), MIT license. \url{http://pugixml.org/}
\item DPX reader/writer \copyright\ 2009 Patrick A.\ Palmer, BSD 3-clause license.
  \\ \url{https://github.com/patrickpalmer/dpx}
\item {\cf tinyformat.h} \copyright\ 2011 Chris Foster, Boost license. \\
  \url{http://github.com/c42f/tinyformat}
\item {\cf lookup3} code by Bob Jenkins, Public Domain. \\
\url{http://burtleburtle.net/bob/c/lookup3.c}
\item {\cf xxhash} \copyright\ 2014 Yann Collet, BSD 2-clause license. \\
\url{https://github.com/Cyan4973/xxHash}
\item {\cf farmhash} \copyright\ 2014 Google, Inc., MIT license.
\url{https://github.com/google/farmhash}
\item {\cf KissFFT} \copyright\ 2003--2010 Mark Borgerding, 3-clause BSD license.
  \\ \url{https://github.com/mborgerding/kissfft}
\item {\cf CTPL} thread pool \copyright\ 2014 Vitaliy Vitsentiy, Apache License.
  \\ \url{https://github.com/vit-vit/CTPL}
\item Droid fonts from the Android SDK are distributed under the
    Apache license. \\ \url{http://www.droidfonts.com}
\item {\cf function_view.h} contains code derived from LLVM,
  \copyright\ 2003--2018 University of Illinois at Urbana-Champaign.
  UIUC license (compatible with BSD) \\ \url{llvm.org}
\item {\cf FindOpenVDB.cmake} \copyright\ 2015 Blender Foundation, BSD license.
\item {\cf FindTBB.cmake} \copyright\ 2015 Justus Calvin, MIT license.
\item {\cf fmt} library \copyright\ Victor Zverovich. BSD 2-clause license. \\
    \url{https://github.com/fmtlib/fmt}
\item UTF-8 decoder \copyright\ 2008-2009 Bjoern Hoehrmann, MIT license.
   \url{http://bjoern.hoehrmann.de/utf-8/decoder/dfa} \\
\item Base-64 encoder \copyright\ René Nyffenegger, Zlib license. \\
    \url{http://www.adp-gmbh.ch/cpp/common/base64.html}
\end{itemize}

\noindent \product Has the following build-time dependencies (using
system installs, referencing as git submodules, or downloading as part of
the build), including link-time dependencies
against dynamic libraries:

\begin{itemize}
\item {\cf libtiff} \copyright\ 1988-1997 Sam Leffler and 1991-1997 Silicon
Graphics, Inc. \\ \url{http://www.remotesensing.org/libtiff}
\item {\cf IJG libjpeg} \copyright\ 1991-1998, Thomas G. Lane.  \url{http://www.ijg.org}
\item OpenEXR, Ilmbase, and Half \copyright\ 2006, Industrial Light \& Magic.\\
\url{http://www.openexr.com}
\item {\cf zlib} \copyright\ 1995-2005 Jean-loup Gailly and Mark Adler. 
\url{http://www.zlib.net}
\item {\cf libpng} \copyright\ 1998-2008 Glenn Randers-Pehrson, et al.  
\url{http://www.libpng.org}
\item Boost \copyright\ various authors. \url{http://www.boost.org}
\item GLEW \copyright\ 2002-2007 Milan Ikits, et al. 
\url{http://glew.sourceforge.net}
\item Jasper \copyright\ 2001-2006 Michael David Adams, et al. \\
\url{http://www.ece.uvic.ca/~mdadams/jasper/}
\item Ptex \copyright\ 2009 Disney Enterprises, Inc.
\url{http://ptex.us}
\item Field3D \copyright\ 2009 Sony Pictures Imageworks.
\url{http://sites.google.com/site/field3d/}
\item {\cf GIFLIB} \copyright\ 1997 Eric S. Raymond (MIT Licensed).
\url{http://giflib.sourceforge.net/}
\item {\cf LibRaw} \copyright\ 2008-2013 LibRaw LLC (LGPL, CDDL, and LibRaw
    licenses). \\ \url{http://www.libraw.org/}
\item {\cf FFmpeg} \copyright\ various authors and distributed under LGPL.
   \url{https://www.ffmpeg.org}
\item {\cf FreeType} \copyright\ 1996-2002, 2006 by David Turner, Robert
    Wilhelm, and Werner Lemberg. Distributed under the FreeType license (BSD compatible).
\item {\cf JPEG-Turbo} \copyright\ 2009--2015 D.\ R.\ Commander. Distributed
    under the BSD license.
\item {\cf pybind11} \copyright\ 2016 Wenzel Jakob. Distributed under the
    BSD license. \url{https://github.com/pybind/pybind11}
\item {\cf OpenVDB} \copyright\ 2012-2018 DreamWorks Animation LLC,
Mozilla Public License 2.0.
\item {\cf Thread Building Blocks} \copyright\ Intel. Apache 2.0 license.
\item {\cf libheif} \copyright 2017-2018 Struktur AG (LGPL). \\
    \url{https://github.com/strukturag/libheif}

\end{itemize}



\chapwidthend
